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The Global ETD Search service is a free service for researchers
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Showing 21 to 28 of 28 (0.031 seconds)Spelling suggestions: "subject:"makromolekulare bohemie"" "subject:"makromolekulare alchemie""
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Terminierungskinetik radikalischer Homo- und Copolymerisationen bis zu hohen Monomerumsätzen / Termination kinetics of free-radical homo- and copolymerisations up to high degrees of monomer conversionFeldermann, Achim 03 July 2003 (has links)
No description available.
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Bestimmung und Modellierung der Initiatoreffektivität von Diazenen in der Ethen-Hochdruckpolymerisation / Determining and modeling of the initiator efficiency of diazenes in the high-pressure ethene polymerizationJauer, Stephan 30 June 2005 (has links)
No description available.
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Kinetische und thermodynamische Untersuchungen der Hochdruck-Copolymerisation von Ethen mit (Meth)Acrylsäureestern / Kinetic and thermodynamic Studies of the High-Pressure Copolymerization of Ethene and (Meth)acrylic acidestersLatz, Henning 29 April 2004 (has links)
No description available.
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Modifying naphthalene diimide copolymers for applications in thermoelectric devicesShin, Younghun 16 October 2020 (has links)
The aim of this thesis is to modify and improve the n-type semiconducting polymer PNDIT2 for thermoelectric generators (TEGs) applications. Although the PNDIT2 is considered a prime n-type material due to its high electron mobility, low air-stability of radical anions after doping and the low doping efficiency with molecular dopants are severe drawbacks and lead to limited application in TEGs. To this end, the backbone structure of PNDIT2 is modified by polymer analogous thionation and the branched aliphatic side chains are replaced by branched, fully oligoethylene glycol-based side chains.
PNDIT2 was prepared by DAP and subjected to various conditions of thionation. The polymer analogous thionation of PNDIT2 was done by using Lawesson´s reagent (LR). The O/S conversion was controlled by solvent, T and amount of LR. For an excess of LR, only two carbonyls out of four present in the NDI repeating unit are converted to thiocarbonyls with regioselective trans-conformation (2S-trans-PNDIT2). Chlorobenzene (CB) is an excellent solvent in which the highest O/S conversion was achieved and the best reproducibility. Tri- or tetra- substitution in one NDI repeat unit did not take place due to steric hinderance of T2 comonomer. Thionation affected all properties. The lower thermal stability, UV-vis spectra were bathochromically shifted and a new band of the thionated NDI unit appeared. Chain aggregation was stronger as probed by UV-vis and NMR spectroscopy. The LUMO energy level of 2S-trans-PNDIT2 was lowered by 0.2 eV, giving -4.0 eV. This is at the border of what is needed for air stability of radical anions. The scattering on thin films indicated lower order and less crystalline textures of 2S-trans-PNDIT2 compared to PNDIT2. Likewise, electron mobility decreased with increasing conversion.
While chapter 2 focused on the synthesis, opto-electronic and thermal properties of 2S-trans-PNDIT2, chapter 3 was concerned with details on morphology and electrical properties. To this end, 2S-trans-PNDIT2 was doped by N-DPBI in toluene at various concentrations and conductivities were determined. Undoped 2S-trans-PNDIT2 exhibited one order of magnitude higher conductivity than pristine PNDIT2. After doping with 5 wt.-% N-DPBI, the conductivity of 2S-trans-PNDIT2 increased by two orders of magnitude and reached a maximum conductivity of 6*10-3 S/cm at 15 wt.-% doping. This value was approx.5 times higher than the conductivity of PNDIT2 at the same doping level. Furthermore, the stability of conductivity of doped 2S-trans-PNDIT2 under ambient conditions was investigated and compared to PNDIT2. Upon exposure air (50 % humidity), conductivity of PNDIT2 rapidly decreased to the pristine film level, while the conductivity of 2S-trans-PNDIT2 was reduced by a factor of less than two after 16 h. While the initially higher conductivity of 2S-trans-PNDIT2 is ascribed to its less crystalline structure and thus higher doping efficacy, its better stability can be ascribed to the lower LUMO energy level.
The topic of chapter 4 is on the synthesis of fully ether-based, polar and branched side chains (EO) and introduction into PNDIT2. The advantages of polar side chains over aliphatic side chains have been reported. However, previously reported PNDIT2 with linear polar side chains is limited in MW due to solubility. The EO side chain with amine functionality was synthesized in three steps and used for monomer synthesis (EO-NDIBr2). Initial efforts to use DAP to prepare P(EO-NDIT2) from EO-NDIBr2 and pristine bithiophene gave only oligomeric products. Stille polycondensation was therefore used, giving high MW. As extreme aggregation occurred in solvents used for GPC, absolute MW were determined by 1H NMR spectroscopy. To enable reliable end group analysis, model compounds with methyl end groups were prepared. In P(EO-NDIT2), methyl end groups are dominating as a result of incorrect transmetalation from the stannylated monomer. The end groups seen by 1H NMR spectroscopy were further confirmed by MALDI-ToF. Absolute MW were between Mn,NMR= 11 kg/mol to 116 kg/mol depending on reaction conditions. Aggregation was further probed by UV-vis and NMR spectroscopy as a function of the solvent and temperature, shining light into the degree of aggregation, which is important for thin film preparation. Solvent quality decreased with the following order: CHCl3, 1-Chloronaphthalene (CN), 1,2-Dichlorobenzene (o-DCB), DMF, 1,4-Dioxane, CB and Anisole (AN). According to these results, three doping protocols based on CB and o-DCB, as well as temperature variations, were used to prepare films for conductivity measurements. The best results were obtained for processing from chlorobenzene at 80 °C, which aggregates are dissolved. Strikingly, maximum conductivity values were achieved already for 5 wt.-% dopant concentration. The PF reached a maximum even for 1 wt.-% doping level. This unusually low value is promising and suggests a high doping efficacy.
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Synthese und Charakterisierung von Hydrogelen auf Stärkebasis zur Anwendung als Kontaktmedium in der medizinischen UltraschalldiagnostikHeß, Christoph 25 November 2003 (has links)
Inhalt der Arbeit ist die Synthese und Charakterisierung von Hydrogelen auf Stärkebasis mit dem Ziel, diese für unterschiedliche Anwendungszwecke, insbesondere jedoch als Kontaktmedium in der medizinischen Ultraschalldiagnostik, einsetzen zu können. Um Stärke zur Ausbildung stabiler, wässriger Gele zu befähigen, werden mehrere Funktionalisierungsschritte vollzogen. Die Einführung von Carboxymethylfunktionen mittels Williamson-Reaktion erhöht den ionischen Charakter und damit die Hydrophilie des Biopolymers. Zur kinetischen Beschreibung der Carboxymethylierung am Stärkekorn in Suspension wird ein Dreiphasenmodell eingeführt. Der Aufbau eines für Gelstrukturen charakteristischen, dreidimensionalen Netzwerks erfolgt durch inter- und intramolekulare Verknüpfung einzelner Polymerstränge über kovalente Etherbrücken. Durch Eliminierung der nach Substitution und Vernetzung löslich verbliebenen Polymeranteile können die Materialeigenschaften des gequollenen Hydrogels erheblich verbessert werden. Rheologische Messungen und bildgebende Untersuchungen mit Gewebephantomen qualifizieren Stärke-Gele als in anwendungstechnischer Hinsicht geeignetes Kontaktmedium in der medizinischen Ultraschalldiagnostik. Mit speziellen Tests wird die pharmakologisch-toxikologische Unbedenklichkeit der Produkte nachgewiesen.
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Detailed Investigations into the Propagation and Termination Kinetics of Bulk Homo- and Copolymerization of (Meth)Acrylates / Detaillierte Untersuchungen der Wachstums- und Terminierungskinetik von (Meth)Acrylat Homo- und Copolymerisationen in SubstanzMüller, Elena 28 April 2005 (has links)
No description available.
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Multiphase coexistence with sequence fractionation in random block copolymers / Multi-Phasenkoexistenz mit Sequenz-Fraktionierung in statistischen Block-Copolymerenvon der Heydt, Alice 23 September 2011 (has links)
No description available.
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Residual density validation and the structure of Labyrinthopeptin A2 / Residualdichtevalidierung und die Struktur von Labyrinthopeptin A2Meindl, Katharina Anna Christina 30 October 2008 (has links)
No description available.
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